EP3661492A1 - Procédés et compositions pour traiter des troubles neurologiques - Google Patents
Procédés et compositions pour traiter des troubles neurologiquesInfo
- Publication number
- EP3661492A1 EP3661492A1 EP18841846.1A EP18841846A EP3661492A1 EP 3661492 A1 EP3661492 A1 EP 3661492A1 EP 18841846 A EP18841846 A EP 18841846A EP 3661492 A1 EP3661492 A1 EP 3661492A1
- Authority
- EP
- European Patent Office
- Prior art keywords
- mice
- subject
- mef2c
- expression level
- nitrosynapsin
- Prior art date
- Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
- Pending
Links
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- C—CHEMISTRY; METALLURGY
- C12—BIOCHEMISTRY; BEER; SPIRITS; WINE; VINEGAR; MICROBIOLOGY; ENZYMOLOGY; MUTATION OR GENETIC ENGINEERING
- C12Q—MEASURING OR TESTING PROCESSES INVOLVING ENZYMES, NUCLEIC ACIDS OR MICROORGANISMS; COMPOSITIONS OR TEST PAPERS THEREFOR; PROCESSES OF PREPARING SUCH COMPOSITIONS; CONDITION-RESPONSIVE CONTROL IN MICROBIOLOGICAL OR ENZYMOLOGICAL PROCESSES
- C12Q2600/00—Oligonucleotides characterized by their use
- C12Q2600/158—Expression markers
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- G—PHYSICS
- G01—MEASURING; TESTING
- G01N—INVESTIGATING OR ANALYSING MATERIALS BY DETERMINING THEIR CHEMICAL OR PHYSICAL PROPERTIES
- G01N2800/00—Detection or diagnosis of diseases
- G01N2800/28—Neurological disorders
- G01N2800/285—Demyelinating diseases; Multipel sclerosis
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- G—PHYSICS
- G01—MEASURING; TESTING
- G01N—INVESTIGATING OR ANALYSING MATERIALS BY DETERMINING THEIR CHEMICAL OR PHYSICAL PROPERTIES
- G01N2800/00—Detection or diagnosis of diseases
- G01N2800/28—Neurological disorders
- G01N2800/2857—Seizure disorders; Epilepsy
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- G—PHYSICS
- G01—MEASURING; TESTING
- G01N—INVESTIGATING OR ANALYSING MATERIALS BY DETERMINING THEIR CHEMICAL OR PHYSICAL PROPERTIES
- G01N2800/00—Detection or diagnosis of diseases
- G01N2800/52—Predicting or monitoring the response to treatment, e.g. for selection of therapy based on assay results in personalised medicine; Prognosis
Definitions
- myocyte enhancer factor 2 (MEF2) transcription is critical for neuronal differentiation, synaptic formation, and neuronal survival. It has been shown that conditional knockout oiMef2c in nestin-expressing neural progenitor cells produced mice with impaired electrophysiological network properties and behavioral deficits reminiscent of Rett syndrome, a neurological disorder related to ASD. Regions of chromosome 5ql4.3ql5 microdeletions cause neurological deficit phenotypes in children identified as MEF2C haploinsufficiency. These patients exhibit signs and symptoms that include ASD, intellectual and developmental disability (IDD), poor reciprocal behavior, lack of speech, stereotyped and repetitive behavior, and epilepsy.
- IDD intellectual and developmental disability
- MEF2C haploinsufficiency syndrome MCHS
- MEF2C haploinsufficiency syndrome MCHS
- multiple MEF2 target genes have been identified as autism -related genes in human pedigrees with shared ancestry.
- NMDAR N-m ethyl -D-aspartate type of glutamate receptor
- the inhibitor of NMDAR is NitroSynapsin.
- the inhibitor of NMDAR is a compound of Formula I, or a pharmaceutically acceptable salt thereof:
- each R is independently selected from -CH 3 and -CH 2 CH 3 ;
- R 2 is selected from hydrogen and -ON0 2 .
- each R 1 is -CH 2 CH 3 and R 2 is -ON0 2 .
- the inhibitor of MDAR is a compound of Formula II, or a pharmaceutically acceptable salt thereof:
- each R 1 is independently selected from hydrogen, Ci-C 6 alkyl, cycloalkyl,
- heterocycloalkyl aryl, and heteroaryl
- R 2 is selected from hydrogen, Ci-C 6 alkyl, and -ON0 2 ;
- R 3 and R 4 are each independently selected from hydrogen and Ci-C 6 alkyl
- R 3 and R 4 are taken together with the nitrogen atom to which they are attached to form a heterocycloalkyl.
- R 3 and R 4 are each hydrogen.
- R 2 is selected from hydrogen and -ON0 2 .
- R 2 is -ON0 2 .
- each R 1 is
- each R 1 is independently selected from methyl and ethyl. In some instances, each R 1 is ethyl.
- the juvenile-onset neurological condition is an Intellectual and Developmental Disability. In some instances, the juvenile-onset neurological condition is an Autism Spectrum Disorder (ASD). In some instances, the juvenile- onset neurological condition comprises epilepsy. In some instances, the juvenile-onset neurological condition is tuberous sclerosis. In some instances, the juvenile-onset neurological condition is autism. In some instances, the juvenile-onset neurological condition is Rett syndrome. In some instances, the subject is a child. In some instances, the subject is MEF2C haploinsufficient, and has MEF2C haploinsufficiency syndrome (MCHS).
- MCHS MEF2C haploinsufficient, and has MEF2C haploinsufficiency syndrome
- the expression level is that of a cell of the subject.
- the expression level is that of a cell in the brain of the subject.
- the expression level is that of a circulating cell of the subject.
- the expression level is an mRNA expression level.
- the expression level is a protein expression level.
- the subject has aMEF2C haploinsufficiency.
- the gene is SLC32A1 and the expression level is significantly reduced relative to that of the average subject comprising two copies of the MEF2C gene.
- the gene is SLC17A6 and the expression level is significantly increased relative to that of the average subject comprising two copies of the MEF2C gene. In some instances, the gene is SYP and the expression level is significantly reduced relative to that of the average subject comprising two copies of the MEF2C gene. In some instances, the gene is GAD65 and the expression level is significantly reduced relative to that of the average subject comprising two copies of the MEF2C gene.
- FIG. 1 shows a summary diagram of Mef2c haploinsufficiency leading to E/I imbalance and MCHS-like phenotypes that were rescued by NitroSynapsin (also known as
- NitroMemantine YQW-036 or MI-6979
- FIG. 2 shows MEF2C protein levels were decreased in Mef2c- et brains.
- FIG. 3 shows Mef2c-het mice displayed MCHS-like phenotypes.
- FIG. 3A shows Mef2c-het mice die prematurely. The number of Mef2c-het compared to WT mice was nearly equal at E18, but -45% that of WT by adulthood ( ⁇ 3 months) (*P ⁇ 0.05 by Chi-square).
- FIG. 3B and FIG. 3C show impaired spatial learned and memory in the Barnes maze of MefZc-het mice during training (FIG. 3B) and on subsequent probe tests (FIG. 3C).
- FIG. 3D and FIG. 3E show increased paw clasping (FIG. 3D) and repetitive head dipping (FIG.
- FIG. 4 shows downregulation of neurogenic and synaptic genes in Mef2c- et mice by microarray analysis.
- P postnatal day
- R Up
- Blue Down
- FIG. 4B shows pathway-enrichment analysis of all genes with significantly altered expression in Mef2c- et relative to WT using NextBio and Gene-Ontology (GO-term) filtering.
- FIG. 5 shows Meflc xet mice exhibited abnormal neuronal properties.
- FIG. 5A shows immunohistochemistry showing NeuN+ cells in the dentate gyrus (DG) of WT and Mef2c- et mice.
- FIG. 5B presents quantification showing decreased NeuN+ cell counts in hippocampus (hipp) and cortex (Ctx) Me/2c- et mice relative to WT. Hippocampal measurements were obtained on granule cells in the molecular layer of the DG, and the cortical measurement on frontal lobe layers IV and V.
- FIG. 5C and FIG. 5D show increased number of GFAP+ cells consistent with astrocytosis Me/2c- et mice.
- FIG. 5A shows immunohistochemistry showing NeuN+ cells in the dentate gyrus (DG) of WT and Mef2c- et mice.
- FIG. 5B presents quantification showing decreased NeuN+ cell counts in hippocampus (hipp) and cortex (
- FIG. 5E shows neurolucida drawing of representative dendrites visualized by Golgi staining in VI (primary visual cortex), M2ML (secondary visual cortex mediolateral area), and LPtA (lateral parietal association cortex) of the visual cortex of WT and Mef 2 'c-het mice.
- FIG. 6 shows Mef2c- et mice exhibited abnormal adult neurogenesis.
- FIG. 6A shows Mef2c- et mice exhibited abnormal adult neurogenesis.
- FIG. 6B and FIG. 6C show quantification of PCNA+ and DCX+ cells revealed reduction in the number of proliferating cells (FIG. 6B) and developing neurons (FIG. 6C) in e 2c-het DG.
- FIG. 6D shows BrdU (green) and NeuN (red) double staining 4 weeks after BrdU injection in 8-week-old WT and Mef 2 'c-het mice revealed newly-born DG neurons (arrows: BrdU+/NeuN+).
- FIG. 6B and FIG. 6C show quantification of PCNA+ and DCX+ cells revealed reduction in the number of proliferating cells (FIG. 6B) and developing neurons (FIG. 6C) in e 2c-het DG.
- FIG. 6D shows BrdU (green) and NeuN (red) double staining 4 weeks after BrdU injection in 8-week-old WT and Mef 2 'c-het mice revealed newly-born DG neurons (arrows: BrdU
- FIG. 6F shows examples of morphological development of neurons born in adult Mef2c- et and WT mice. Dividing cells in the dentate gyrus (DG) were labeled with mCherry via retroviral-mediated gene transduction. Mice were sacrificed 4 weeks later.
- Section thickness 40 ⁇ .
- Scale bar 50 ⁇ . Values are mean ⁇ s.e.m., *P ⁇ 0.05; ***P ⁇ 0.001 by Student's t-test.
- FIG. 7 shows Mef2c- et mice exhibited altered synaptic properties
- FIG. 7A shows
- FIG. 7B shows reduced immunoreactivity of SYP in the dentate gyrus (DG) and CA1 regions oiMef2c- het hippocampus but not cortex (Ctx) or striatum (str, left).
- DG measurements were performed in the molecular layer, CA1 in the pyramidal cell layer, Ctx in frontal cortical layers IV and VI, and str in the putamen at the level of the nucleus accumbens.
- FIGS. 7C and 7D show representative traces of mlPSCs (FIG. 7C) and miniature excitatory postsynaptic currents (mEPSCs) (FIG. 7D) from slice recordings of DG neurons of WT and Mef 2 c-het mice.
- FIGS. 7C and 7D show representative traces of mlPSCs (FIG. 7C) and miniature excitatory postsynaptic currents (mEPSCs) (FIG. 7D) from slice recordings of DG neurons of WT and Mef 2 c-het mice.
- FIG. 8 shows Mef2c-het mice expressed altered levels of synaptic proteins in the hippocampus.
- FIG. 8A shows immunoblots of synaptosome-enriched hippocampal lysates showed decreased synaptophysin (SYP) and GAD65 but not VGLUT1 in Mef 2c-het mice.
- FIG. 8B shows Ratio of VGLUT1 to GAD65.
- FIG. 9 shows Mef2c-het mice exhibited impairment of hippocampal long-term potentiation (LTP) and paired-pulse facilitation (PPF) in brain slice recordings.
- FIGS. 9A and 9B show e/2c-het mice showed impaired LTP (FIG. 9A) and decreased PPF (FIG. 9B).
- FIG. 10 shows NitroSynapsin rescued MCHS-like phenotypes in Mef2c-het mice.
- FIG. 10A shows latency of finding hidden platform during training sessions in the Morris water maze.
- FIG. 10B shows results of a probe test; vehicle-treated Mef2c-het mice (Het/V) showed no preference between target and opposite quadrants, suggesting impaired memory. Treatment with NitroSynapsin (N) rescued this effect (Het/N). Representative swim patterns shown at bottom.
- FIG. IOC and FIG. 10D show an open field test; Het/V mice exhibited increased center time that was rescued by treatment with N (FIG. IOC). In contrast, Het/V mice displayed normal total activity (FIG. 10D).
- FIG. 10A shows latency of finding hidden platform during training sessions in the Morris water maze.
- FIG. 10B shows results of a probe test; vehicle-treated Mef2c-het mice (Het/V) showed no preference between target and opposite quadrants, suggesting
- FIGS. 10E shows Het/V mice displayed increased head-dips per hole, suggesting repetitive behavior. Each drug rescued.
- FIGS. 10F-I show N treatment rescued aberrant social ability Mef2c-het mice.
- FIG. 10E shows Representative traces of mouse movement in the three-chamber social ability test.
- FIGS. 10G-I show Mef 2 c- et mice (Het/V) exhibit abnormalities in social interaction measured by time spent in each chamber (FIG. 10G); and number of visits (FIG. 10H) and duration of visits (FIG. 101) to E (empty) or SI (stranger mouse 1) chambers. N treatment ameliorated this deficit (Het/N).
- FIG. 11 shows neither Mef2c heterozygosity nor NitroSynapsin treatment altered swimming speed of mice in the Morris water maze.
- FIG. 12 shows NitroSynapsin was more effective than memantine in rescuing neurological deficits of Mef2c- et mice.
- FIG. 12A presents a summary graph showing that the number of social visits by Mef2c- et mice treated with NitroSynapsin (N) was significantly greater than that of memantine (M)-treated mice in the three-chamber social interaction test.
- Social visits constitute the number of visits to the chamber with a stranger mouse (SI) minus the number of visits to the empty chamber (E).
- SI stranger mouse
- E the number of visits to the empty chamber
- FIG. 13 shows NitroSynapsin (N) treatment did not alter the social behavior of WT mice in the three-chamber assay.
- Summary graphs showing time in three chambers (FIG. 13A), number of visits (FIG. 13B), and duration of visits (FIG. 13C) by WT mice after 3-month treatment with vehicle (V) or NitroSynapsin (N). NitroSynapsin treatment did not significantly alter the social behavior of WT mice.
- E Empty chamber
- SI Stranger mouse 1 chamber.
- FIG. 14 shows Mef2c-h t mice did not exhibit abnormal motor behaviors, except paw clasping, which was not rescued by NitroSynapsin.
- Mef2c- et mice did not exhibit significantly altered behaviors on the balance beam (FIG. 14A), cylindrical rod (FIG. 14B), traction capacity (FIG. 14C), suspension test (FIG. 14D), or vertical pole tests (FIG. 14E).
- treatment with NitroSynapsin had no significant effect on behaviors of either WT or Mef2c- et mice.
- FIG. 15 shows NitroSynapsin rescued abnormal neuronal and synaptic properties in Mefic-het mice.
- FIG. 15A shows immunohistochemical images of NeuN, VGLUTl, VGAT, and VGLUT2 in the molecular layer (ML) of the hippocampal dentate gyrus (DG) of WT and Mefic-het mice treated with vehicle (V) or NitroSynapsin (N). Scale bars: 500 ⁇ (top panel), 25 ⁇ (middle panels), 40 ⁇ (bottom panel).
- FIG. 15B-F presents summary graphs showing rescue by NitroSynapsin of decreased number of total NeuN+ cell counts (FIG. 15B), reduced immunoreactivity of VGAT (FIG.
- FIG. 16 shows Mefic-het mice showed increased caspase-3 activation and apoptosis in the hippocampus.
- FIG. 16A shows immunohistochemistry of activated caspase-3 (Act Casp 3, top panels) and TUNEL staining (bottom panels) in the hippocampal CA3 region of WT mice treated with vehicle (WT/V) or NitroSynapsin (WT/N), and in Mefic-het mice treated with vehicle (Het/V) or NitroSynapsin (Het/N). Scale bars, 25 ⁇ .
- FIG. 16B and FIG. 16C present histograms showing that caspase-3+ (FIG. 16B) and TUNEL+ neurons (FIG.
- FIG. 17 shows NitroSynapsin normalized the number of astrocytes in Mefic-het hippocampus.
- FIG. 17A-C present representative images showing increased GFAP+ cells with morphology of astrocytes in Mefic-het mice vs. WT (FIG. 17B vs. FIG. 17A). The number of GFAP+ cells was restored to WT levels by chronic treatment with NitroSynapsin (FIG. 17C). ML, molecular layer of the dentate gyrus (DG). Scale bar, 25 ⁇ .
- FIG. 18 shows Mefic-het mice displayed reduction in parvalbumin+ (PV+) inhibitory synapses and cells.
- FIG. 18A presents representative images showing PV+ immunoreactivity in the hippocampus of WT mice treated with vehicle (WT/V) and in Mefic-het mice treated with vehicle (Het/V) or NitroSynapsin (Het/N). Higher magnification of PV+ neurons (bottom left of each panel) or synapses (bottom right of each panel). Scale bar, 25 ⁇ .
- FIG. 18B presents a histogram showing reduction in PV-immunoreactive synapses in Het/V mice compared to WT/V mice. This reduction was significantly ameliorated after NitroSynapsin treatment.
- FIG. 18A presents representative images showing PV+ immunoreactivity in the hippocampus of WT mice treated with vehicle (WT/V) and in Mefic-het mice treated with vehicle (Het/V) or NitroSynapsin (Het/N). Higher magnification of
- FIG. 19 shows NitroSynapsin treatment rescued deficits in LTP in Mef2c- et mice. Representative traces of evoked currents before (left) and after (right) induction of hippocampal LTP in slices prepared from WT/V-, Het/V-, and Het/N-treated mice. fEPSP slopes for each group of animals is presented in FIG. 15H in the text.
- FIG. 20A shows extrasynaptic N-methyl-D-aspartate receptor (eNMDAR) activity triggered signaling that inactivated Tuberous Sclerosis Complex 2 (TSC2) and was attenuated by the NMDAR antagonist NitroMemantine (aka NitroSynapsin, YQW-036, NMI-6979) to a greater degree than Memantine.
- TSC2 Tuberous Sclerosis Complex 2
- NitroMemantine aka NitroSynapsin, YQW-036, NMI-6979
- Schema shows that NMDA receptor antagonists blocked activation of the p38 MAPK cascade.
- NitroMemantine YQW-036 also known as
- FIG. 20B shows Western blots evidence that eNMDAR stimulation increased phosphorylation/activation of the p38 MAPK/
- FIG. 21 shows effects of Memantine (M) and NitroSynapsin (N, labeled
- FIG. 21A shows representative histological images of brain slices from three-month-old WT and Tsc2 +/ ⁇ transgenic mice treated with vehicle, M or N. Staining for SY38 (synpatophysin)-positive synaptic terminals (red) are shown in the hippocampus.
- FIG. 21B shows quantification of immunoreactivity of Synaptophysin in WT and TSC2+/- transgenic mice with vehicle, M or N treatment. Synaptic integrity was measured as the percent area of occupied by immunoreactive SY38.
- FIG. 22 shows abnormal CA 1 -LTP in Tsc2 +I ⁇ (het) mice and improvement with
- FIG. 22A shows LTP (long-term potentiation) recorded from hippocampal slices by multielectrode array (MEA).
- FIG. 23 shows beneficial effects of treatment with NitroSynapsin but not memantine on context discrimination in Tsc2 +/ ⁇ (het) mice assessed by the fear conditioning test. Freezing time of three-month-old WT and Tsc2 +/ ⁇ transgenic mice treated with vehicle, memantine or
- FIG. 24 shows improved rotarod performance of MeCP2 knockout (KO) mouse model of Rett syndrome by treatment with NitroSynapsin. Mice were placed on the stationary cylinder and the cylinder then slowly accelerated to 10 revolutions/min. The total time at 10 rpm before a fall from the cylinder was recorded.
- N
- MEF2 myocyte enhancer factor 2
- MEF2C haploinsufficiency syndrome MEF2C haploinsufficiency syndrome
- multiple MEF2 target genes have been identified as autism -related genes in human pedigrees with shared ancestry. Therefore, the claimed therapeutic method for MCHS finds utility in effectively treating other forms of ASD/IDD and epilepsy as well.
- NitroSynapsin because of its ability to restore synaptic number and function in the face of multiple insults.
- Scheme 1 shows the structures of Memantine and NitroMemantine (aka NitroSynapsin).
- NitroSynapsin these mice exhibited decreased neurogenesis, enhanced neuronal apoptosis, an altered ratio of E/I neurotransmission, and a phenotype of behavioral deficits resembling those of human patients with Autism Spectrum Disorder (ASD), Intellectual and Developmental Disability (IDD) and epilepsy. Importantly, nearly all of these phenotypes were rescued or mitigated by chronic treatment with NitroSynapsin. Moreover, additional mouse models of the human diseases of Rett syndrome and Tuberous Sclerosis showed that NitroSynapsin was similarly effective in correcting phenotypes associated with these other forms of ASD/IDD and epilepsy that are associated with E/I imbalance.
- NitroSynapsin was shown as an effective treatment in multiple mouse models of ASD/IDD and epilepsy, and therefore should be effective for treatment of human ASD/IDD and epilepsy. [031] It was surprising to us that NitroSynapsin had efficacy for MCHS and other forms of ASD/IDD and epilepsy syndromes because other MDAR antagonists, like memantine, had failed in human clinical trials for this purpose (Fung LK, Hardan AY. Developing medications targeting glutamatergic dysfunction in autism: Progress to date. CNS Drugs 29, 453-463 (2015); Tu S, Lipton SA Nakanishi N, et al. NitroSynapsin therapy for the mouse MEF2C
- NitroSyanpsin works in this regard because it manifests superior efficacy while having clinically-tolerated properities of avoiding blockade of synaptic transmission and long term potentiation (LTP).
- FIG. 1 shows a summary diagram of Mef2c haploinsufficiency leading to E/I imbalance and MCHS-like phenotypes that were rescued by NitroSynapsin. Mef2c haploinsufficiency leads to decreased VGAT and increased VGLUT2 protein levels, resulting in E/I imbalance
- Mef2c haploinsufficiency also causes neuronal loss, notably a reduced number of PV+ inhibitory interneurons.
- These synaptic and cellular abnormalities are likely the underlying cause of the MCHS-like behavioral phenotypes observed Me/2c- et mice.
- the histological and behavioral phenotypes are ameliorated by chronic treatment with NitroSynapsin (NitroMem) to a significantly greater degree than the FDA- approved drug memantine (Mem).
- Methods may comprise delivering a compound disclosed herein to the subject.
- Methods may comprise delivering a combination of compounds disclosed herein to the subject.
- the neurological condition may be associated with E/I imbalance, as those skilled in the art know how to assess.
- E/I can be assessed by a number of methods, for example, patch-clamp electrical recording to show hyperexcitability or deficits in inhibitory transmission (Tu et al., 2017 ibid.). Histological assessment of excitatory and inhibitory synapses as described in Tu et al., 2017 (ibid.) can also be used in part to assess E/I imbalance.
- Neurological conditions in humans or other animals that may be treated according to methods disclosed herein include, but are not limited to any form of autism (ASD), MEF2C haploinsufficiency syndrome (MCHS), Intellectual and Developmental Disabilities (IDD), epilepsy, Rett syndrome, and Tuberous Sclerosis.
- ASD autism
- MEF2C haploinsufficiency syndrome MCHS
- IDD Intellectual and Developmental Disabilities
- epilepsy epilepsy
- Rett syndrome Rett syndrome
- Tuberous Sclerosis Tuberous Sclerosis
- Methods of treatment disclosed herein comprise treating a juvenile-onset neurological condition.
- a juvenile-onset neurological condition is one in which one or more neurological or behavioral abnormalities appear during childhood. In some instances, childhood is considered between the ages of 0 and 18 years of age. In some instances, the child is between 0 and 12 years of age.
- Non-limiting examples of neurological and behavioral abnormalities include hand clasping, lack of eye contact, slow head growth, seizures, repetitive motions, reduction or loss of language, handwringing, clapping, tapping, random grasping and releasing, breathing irregularities, reduction or loss of social interaction, reduction or loss of social interaction of communication skills, unsteady gait, apraxia, motor difficulties, muscle weakness, rigidity, spasticity, psychomotor delay, generalized hypotonia, poor eye contact, hand-mouth
- Non-limiting examples of juvenile-onset neurological conditions include Autism Spectrum Disorders (ASD), Intellectual and
- IDD Developmental Disabilities
- epilepsy epilepsy
- MEF2C haploinsufficiency syndrome MCHS
- Tuberous Sclerosis IDD comprises conditions that fall under ASD, including autism itself.
- Autism Spectrum Disorders include, but are not limited to autism, Asperger's Syndrome, and Rett Syndrome.
- Additional conditions that may be considered juvenile-onset neurological conditions include attention deficit disorder, attention deficit hyperactive disorder, pervasive developmental disorder, and obsessive compulsive disorder.
- the juvenile-onset neurological condition is due to brain injury caused by disease/infection, head trauma, or toxicity.
- Methods of treatment disclosed herein may result in restoring synaptic plasticity to improve E/I imbalance. Methods of treatment disclosed herein may result in preventing neuronal loss. Methods of treatment disclosed herein may result in an increase of synaptic markers. Methods of treatment disclosed herein may result in long-term potentiation (LTP). Methods of treatment disclosed herein may result in an increase of neuronal number. Methods of treatment disclosed herein may result in corrected E/I imbalance. Methods of treatment disclosed herein may result in improved autistic/MCHS-like behavioral deficits. Methods of treatment disclosed herein may result in increased inhibitory interneuron/parvalbumin (PV)+ synapses.
- V inhibitory interneuron/parvalbumin
- Methods of treatment disclosed herein may result in normalizing VGAT and/or VGLUT2 levels. Methods of treatment disclosed herein may result in normalizing a ratio of VGLUT1 to VGAT, a ratio of VGLUT2 to VGAT, or the combination thereof. Methods of treatment disclosed herein may rescue apoptotic neurons. Methods of treatment disclosed herein may reduce the number of apoptotic neurons observed in the brain of the subject. Methods of treatment disclosed herein may result in reducing or preventing cognitive deficits. Methods of treatment disclosed herein may result in reducing or preventing repetitive behavior. Methods of treatment disclosed herein may result in reducing or preventing impaired social interactions. Methods of treatment disclosed herein may result in reducing or preventing anxiety. Methods of treatment disclosed herein may result in reducing or preventing aberrant motor behaviors.
- Methods of treatment disclosed herein may result in reducing or preventing hand clasping. Methods of treatment disclosed herein may result in reducing or preventing abnormal social behavior. Methods of treatment disclosed herein may improve memory. Methods of treatment disclosed herein may improve learning.
- methods disclosed herein comprise treating a subject with Autism Spectrum Disorder (ASD).
- ASSD Autism Spectrum Disorder
- Subjects who fall under ASD include subjects diagnosed with autism, Asperger syndrome, and pervasive developmental disorder not otherwise specified (PDD-NOS), and childhood disintegrative disorder. These subjects exhibit difficulty with social communication and interaction. They may also exhibit repetitive behaviors. Diagnosis of ASD may be performed based on criteria published in the most current Diagnostic and Statistical Manual of Mental Disorders and/or International Statistical Classification of Diseases and Related Health Problems (ICD). Practitioners may administer assessments such as the Autism Diagnostic Interview-Revised and the Autism Diagnostic Observation Schedule.
- ICD International Statistical Classification of Diseases and Related Health Problems
- Methods disclosed herein may comprise assessing the severity of ASD or a condition comorbid with ASD.
- Methods may comprise assessing the presence and/or severity of one or more symptoms of ASD or a condition comorbid with ASD before delivering a compound disclosed herein to the subject.
- Methods may comprise assessing the presence and/or severity of one or more symptoms of ASD or a condition comorbid with ASD after delivering a compound disclosed herein to the subject.
- Methods disclosed herein may result in reducing the severity of one or more symptoms of ASD or a condition comorbid with ASD.
- methods comprise delivering a compound disclosed herein to a subject with ASD and providing a behavioral therapy to the subject, such as speech and language therapy and occupational therapy.
- methods disclosed herein comprise treating a subject with an
- IDD Intellectual and Developmental Disability
- An IDD is a condition that affects the subject's physical, cognitive, and/or emotional development.
- the subject with the IDD may have difficulty learning, reasoning, problem solving, and/or socializing.
- the subject with the IDD may exhibit one or more behavioral disorders, speech impediments, language issues, seizures, and physical disabilities.
- the subject with the IDD may have impaired vision.
- the subject with the IDD may have impaired hearing.
- the subject with the IDD may have a metabolic disorder. In some instances, these issues worsen with age.
- IDDs examples include, but are not limited to, cerebral palsy, Down syndrome, Fragile X syndrome, autism spectrum disorders (ASDs), phenylketonuria (PKU) and congenital hypothyroidism.
- Methods disclosed herein may comprise assessing the severity of an IDD or a condition comorbid with IDD. Methods may comprise assessing the presence and/or severity of one or more symptoms of the IDD before delivering a compound disclosed herein to the subject.
- Methods may comprise assessing the presence and/or severity of one or more symptoms of the IDD after delivering a compound disclosed herein to the subject. Methods disclosed herein may result in reducing the severity of one or more symptoms of the IDD. In some instances, methods comprise delivering a compound disclosed herein to a subject and providing a behavioral therapy to the subject with the IDD, such as speech and language therapy and occupational therapy.
- methods disclosed herein comprise treating a subject with epilepsy.
- Epilepsy is a term to describe a variety of neurological disorders characterized by epileptic seizures. These seizures are believed to be caused by excessive and/or abnormal activity in the brain. In many cases, seizures can be controlled with medication, surgery, neurostimulation, dietary restriction, or a combination thereof.
- Methods may comprise delivering one or more compounds disclosed herein to a subject with epilepsy in combination with medication, surgery, neurostimulation, dietary restriction, or a combination thereof. Methods may comprise assessing the presence and/or severity of the subject's seizures before delivering a compound disclosed herein to the subject.
- Methods may comprise assessing the presence and/or severity of the subject's seizures after delivering a compound disclosed herein to the subject. Methods disclosed herein may result in reducing the severity of the subject's seizures. Methods disclosed herein may result in reducing the number of occurrences of the subject's seizures. Methods disclosed herein may result in reducing the frequency of the subject's seizures. Methods disclosed herein may result in reducing the duration of the subject's seizures.
- methods disclosed herein comprise treating a subject with Rett syndrome.
- Rett syndrome is a neurological disorder that is characterized by challenges with language and coordination, and repetitive movements.
- subjects with Rett syndrome have seizures, scoliosis, and sleeping problems.
- Other symptoms include decreased head growth (before age 4), reduction or loss of hand control, reduction or loss of language, handwringing, clapping, tapping, random grasping and releasing, breathing irregularities, reduction or loss of social interaction , reduction or loss of social interaction of communication skills, unsteady gait, apraxia, motor difficulties, muscle weakness, rigidity, and spasticity.
- Methods may comprise delivering one or more compounds disclosed herein to a subject with Rett syndrome in combination with medications used to treat Rett syndrome, including, but not limited to sleep aids, selective serotonin reuptake inhibitors, anti-psychotics, and beta-blockers, or a combination thereof.
- Methods may comprise assessing the presence and/or severity of the subject's symptoms before delivering a compound disclosed herein to the subject with Rett syndrome.
- Methods may comprise assessing the presence and/or severity of the subject's symptoms after delivering a compound disclosed herein to the subject with Rett syndrome.
- Methods disclosed herein may result in reducing the severity of one or more of the subject's with Rett syndrome symptoms.
- Methods disclosed herein may result in alleviating one or more of the subject's with Rett syndrome symptoms.
- methods disclosed herein comprise treating a subject with Tuberous Sclerosis.
- Tuberous sclerosis is an autosomal dominant disorder caused by heterozygous mutations in the TSC1 or TSC 2 gene.
- TSC is often associated with neurological, cognitive, and behavioral deficits.
- TSC patients may express co-morbidity with anxiety and mood disorders.
- TSC-related neurological symptoms may be accompanied by excessive glutamatergic activity and altered synaptic spine structures.
- Tuberous Sclerosis is a condition typically characterized by benign tumors. These tumors can appear in organs such as the brain, heart, kidney, liver, eye, lungs and skin.
- Symptoms include, but are not limited to signs of ASD, seizures, cognitive disabilities, behavioral abnormalities (e.g., aggression, attention deficit hyperactivity disorder, obsessive compulsive disorder, self-injury), skin conditions, lung disease and kidney disease. There are few treatment options for this condition, but Everolimus has been approved for treatment of tumors in the brain and kidneys. Methods may comprise delivering one or more compounds disclosed herein to a subject with Tuberous Sclerosis in combination with
- Methods may comprise assessing the presence and/or severity of the subject's symptoms before delivering a compound disclosed herein to the subject with Tuberous Sclerosis. Methods may comprise assessing the presence and/or severity of the subject's symptoms after delivering a compound disclosed herein to the subject with Tuberous Sclerosis. Methods disclosed herein may result in reducing the severity of one or more of the subject's with Tuberous Sclerosis symptoms. Methods disclosed herein may result in alleviating one or more of the subject's with Tuberous Sclerosis symptoms.
- methods disclosed herein comprise treating a subject with MEF2C haploinsufficiency.
- MEF2C haploinsufficiency syndrome is a neurodevelopmental disorder associated with intellectual disability, autistic features, epilepsy, and abnormal movements. Symptoms include, but are not limited to psychomotor delay, generalized hypotonia, poor eye contact, hand-mouth stereotypies, strabismus, and minor facial
- E/I ratio excitatory to inhibitory ratio
- Methods disclosed herein may comprise restoring the E/I ratio toward a normal range (e.g, that of a person without a MEF2C haploinsufficiency) and improving signs of ASD.
- Methods may comprise assessing the presence and/or severity of the subject's symptoms before delivering a compound disclosed herein to the subject with MEF2C haploinsufficiency.
- Methods may comprise assessing the presence and/or severity of the subject's symptoms after delivering a compound disclosed herein to the subject with MEF2C haploinsufficiency.
- Methods disclosed herein may result in reducing the severity of one or more of the subject's with MEF2C haploinsufficiency symptoms. Methods disclosed herein may result in alleviating one or more of the subject's with MEF2C haploinsufficiency symptoms.
- methods disclosed herein comprise treating a subject, wherein the subject is a child.
- the child may be less than about 14 years old, less than about 13 years old, less than about 12 years old or less than about 10 years old.
- the subject is more than 1 year old, more than 2 years old, more than 3 years old, more than 4 years old, or more than 5 years old.
- Methods disclosed herein may comprise selecting a subject for treatment.
- the subject is selected based on expression of a gene in the subject.
- the subject is selected based on a sequence of a gene in the subject.
- the subject is selected based on a mutation in a gene in the subject.
- the mutation may be a deletion mutation.
- the deletion mutation may be a haploinsufficiency (e.g., MEF2C haploinsufficiency).
- the mutation may be a frameshift mutation.
- the mutation may be a single nucleotide polymorphism.
- the subject is selected based on the subject's expression of a protein encoded by the gene.
- the subject is selected based on activity of the protein encoded by the gene.
- the gene may be MEF2C, which encodes myocyte enhancer factor 2C (MEF2C).
- the gene may be SLC32A1, which encodes vesicular ⁇ -aminobutyric acid (GAB A) transporter (VGAT).
- GAT vesicular ⁇ -aminobutyric acid
- the gene may be SLC17A6, which encodes vesicular glutamate transporter 2 (VGLUT2).
- the gene may be SYP, which encodes the protein synaptophysin, also known as major synaptic vesicle protein p38.
- the gene may be GAD65, which encodes glutamic acid decarboxylase.
- Methods may comprise obtaining an expression level of a gene disclosed herein.
- Methods may comprise obtaining an expression level of a protein disclosed herein. Methods may comprise obtaining information about activity of a protein disclosed herein. Methods may comprise analyzing an expression level of a gene disclosed herein. Methods may comprise analyzing an expression level of a protein disclosed herein. Methods may comprise analyzing information about activity of a protein disclosed herein. Methods may comprise quantifying an expression level of a gene disclosed herein. Methods may comprise quantifying an expression level of a protein disclosed herein. Methods may comprise quantifying information about activity of a protein disclosed herein. Quantifying and analyzing expression and activity of genes and proteins, respectively, are well known in the art. Non -limiting examples of quantifying and analyzing gene expression are q-PCR, microarray, sequencing, and Northern blot.
- Methods may comprise analyzing allele-specific expression.
- quantifying and analyzing protein expression and activity are immunohistochemistry, Western blot, immunoprecipitation, flow cytometry, immunofluorescence, and combinations thereof.
- Methods may comprise sequencing a gene disclosed herein.
- Methods may comprise obtaining an expression level of a gene disclosed herein, wherein the expression level is that of a cell of the subject.
- Methods may comprise obtaining a cell from the subject.
- Methods may comprise isolating a cell from the subject.
- the cell may be a brain cell.
- the cell may be a circulating cell.
- the cell may be a cell circulating in cerebrospinal fluid.
- the cell may be a blood cell.
- the cell may be a skin cell.
- the cell may be an epithelial cell.
- the cell may be a human induced pluripotent stem cell derived from a patient skin biopsy and differentiated into a neuron or other brain cells (e.g., astrocytes, oligodencrocytes, and microglia) and assayed in a two-dimensional (2D) culture system or in a 3D cerebral organoid, a small brain like structure produced in vitro and thus able to model a "disease-in-a-dish.”
- a neuron or other brain cells e.g., astrocytes, oligodencrocytes, and microglia
- 2D two-dimensional
- Obtaining the expression level of the gene may comprise isolating a cell-free nucleic acid from the subject.
- the cell-free nucleic acid may comprise RNA.
- the cell-free nucleic acid may comprise messenger RNA.
- the cell-free nucleic acid may consist essentially of messenger RNA.
- the cell-free nucleic acid may comprise DNA.
- the DNA may be methylated DNA.
- Obtaining the expression level of the gene may comprise isolating a cell-free nucleic acid from the subject.
- the cell -free nucleic acid may be circulating cell-free nucleic acid.
- Methods may comprise obtaining a sample from the subject, wherein the sample contains the cell-free nucleic acid. Non-limiting examples of such samples are whole blood, plasma, serum, urine, cerebrospinal fluid, and saliva.
- Methods disclosed herein may comprise quantifying an expression level of SLC32A1 in a subject, or a cell thereof, or a biological fluid thereof.
- the subject may have aMEF2C haploinsufficiency.
- the subject may not have aMEF2C haploinsufficiency.
- the subject may have a significantly reduced SLC32A1 expression level relative to that of the average of a plurality of control subjects having two copies of the MEF2C gene.
- the subject may have a significantly reduced SLC32A1 expression level relative to that of the average of a plurality of control subjects exhibiting no signs of or symptoms of a neurological disorder.
- the subject may have a significantly reduced SLC32A1 expression level relative to that of the average of a plurality of control subjects exhibiting no signs of or symptoms of a neurological disorder disclosed herein. Significantly reduced may be at least about 10% reduced, at least about 20% reduced, at least about 30% reduced, at least about 40% reduced, at least about 50% reduced, at least about 75% reduced, or about 100% reduced.
- Methods disclosed herein may comprise quantifying an expression level of SLC17A6 in a subject, or a cell thereof, or a biological fluid thereof.
- the subject may have aMEF2C haploinsufficiency.
- the subject may not have aMEF2C haploinsufficiency.
- the subject may have a significantly increased SLC17A6 expression level relative to that of the average of a plurality of control subjects having two copies of the MEF2C gene.
- the subject may have a significantly increased SLC17A6 expression level relative to that of the average of a plurality of control subjects exhibiting no signs of or symptoms of a neurological disorder.
- the subject may have a significantly increased SLC17A6 expression level relative to that of the average of a plurality of control subjects exhibiting no signs of or symptoms of a neurological disorder disclosed herein.
- Significantly increased may be at least about 10% increased, at least about 20% increased, at least about 30% increased, at least about 40% increased, at least about 50% increased, at least about 75% increased, or about 100% increased.
- Methods disclosed herein may comprise quantifying an expression level of
- synaptophysin a presynaptic protein, in a subject, or a cell thereof, or a biological fluid thereof.
- the subject may have aMEF2C haploinsufficiency.
- the subject may not have a MEF2C haploinsufficiency.
- the subject may have a significantly reduced SYP expression level relative to that of the average of a plurality of control subjects having two copies of the MEF2C gene.
- the subject may have a significantly reduced SYP expression level relative to that of the average of a plurality of control subjects exhibiting no signs of or symptoms of a neurological disorder.
- the subject may have a significantly reduced SYP expression level relative to that of the average of a plurality of control subjects exhibiting no signs of or symptoms of a
- Significantly reduced may be at least about 10% reduced, at least about 20% reduced, at least about 30% reduced, at least about 40% reduced, at least about 50%) reduced, at least about 75% reduced, or about 100% reduced.
- Methods disclosed herein may comprise quantifying an expression level of GAD65 in a subject, or a cell thereof, or a biological fluid thereof.
- the subject may have aMEF2C haploinsufficiency.
- the subject may not have aMEF2C haploinsufficiency.
- the subject may have a significantly reduced GAD65 expression level relative to that of the average of a plurality of control subjects having two copies of the MEF2C gene.
- the subject may have a significantly reduced GAD65 expression level relative to that of the average of a plurality of control subjects exhibiting no signs of or symptoms of a neurological disorder.
- the subject may have a significantly reduced GAD65 expression level relative to that of the average of a plurality of control subjects exhibiting no signs of or symptoms of a neurological disorder disclosed herein.
- Significantly reduced may be at least about 10% reduced, at least about 20% reduced, at least about 30% reduced, at least about 40% reduced, at least about 50% reduced, at least about 75% reduced, or about 100% reduced.
- ASD Autism Spectrum Disorder
- IDDD Intellectual and Developmental Disability
- epilepsy a method of treating Autism Spectrum Disorder
- IDD Intellectual and Developmental Disability
- epilepsy a method of treating a subject in need thereof with a compound of Formula I, or a pharmaceutically acceptable salt thereof:
- each R is independently selected from -CH 3 and -CH 2 CH 3 ;
- R 2 is selected from hydrogen and -ON0 2 .
- R 2 is hydrogen. In some embodiments, R 2 is -ON0 2 .
- each R is different. In some embodiments, each R is the same. In some embodiments, each R 1 is -CH 3 . In some embodiments, each R 1 is -CH 2 CH 3 .
- each R 1 is -CH 2 CH 3 and R 2 is -ON0 2 .
- ASD Autism Spectrum Disorder
- IDDD Intellectual and Developmental Disability
- epilepsy a method of treating other forms of Autism Spectrum Disorder (ASD), Intellectual and Developmental Disability (IDD), epilepsy, Rett syndrome, and/or Tuberous Sclerosis in a subject in need thereof with a compound of Formula II, or a
- each R is independently selected from hydrogen, Ci-C 6 alkyl, cycloalkyl,
- R 2 is selected from hydrogen, Ci-C 6 alkyl, and -ON0 2 ;
- R 3 and R 4 are each independently selected from hydrogen and Ci-C 6 alkyl
- R 3 and R 4 are taken together with the nitrogen atom to which they are attached to form a heterocycloalkyl.
- R 3 and R 4 are independently selected from hydrogen, methyl, ethyl, n-propyl, i- propyl, n-butyl, i-butyl, s-butyl, and t-butyl. In some embodiments, R 3 and R 4 are independently selected from hydrogen and methyl. In some embodiments, R 3 and R 4 are the same. In some embodiments, R 3 and R 4 are different. In some embodiments, R 3 and R 4 are hydrogen.
- R 3 and R 4 are taken together with the nitrogen atom to which they are attached to form a heterocycloalkyl. In some embodiments, R 3 and R 4 are taken together with the nitrogen atom to which they are attached to form a monocyclic heterocycloalkyl.
- R 2 is hydrogen. In some embodiments, R 2 is Ci-C 6 alkyl. In some embodiments, R 2 is -ON0 2 . In some embodiments, R 2 is hydrogen or -ON0 2 .
- the compound of Formula II, or a pharmaceutically acceptable salt thereof is a compound of Formula III, or a pharmaceutically acceptable salt thereof:
- each R 1 is independently selected from hydrogen, Ci- C 6 alkyl, cycloalkyl, heterocycloalkyl, and aryl. In some embodiments, each R 1 is
- each R 1 is independently selected from hydrogen and Ci-C 6 alkyl. In some embodiments, each R 1 is independently selected from Ci-C 6 alkyl. In some embodiments, each R 1 is independently selected from methyl, ethyl, n-propyl, i-propyl, n-butyl, i-butyl, s-butyl, and t-butyl. In some embodiments, each R 1 is independently selected from methyl, ethyl, and n-propyl. In some embodiments, each R 1 is independently selected from methyl and ethyl. In some embodiments, each R 1 is the same. In some embodiments, each R 1 is different. In some embodiments, each R 1 is methyl. In some embodiments, each R 1 is ethyl. In some embodiments, each R 1 is n-propyl. Formulations
- Methods may comprise delivering to a subject a dose of about 1 mg to about 25 mg of a compound disclosed herein. Methods may comprise delivering to a subject a dose of about 1 mg to about 20 mg of a compound disclosed herein. Methods may comprise delivering to a subject a dose of about lmg to about 5 mg of a compound disclosed herein. Methods may comprise delivering to a subject a dose of about 5 mg to about 10 mg of a compound disclosed herein. Methods may comprise delivering to a subject a dose of about 10 mg to about 15 mg of a compound disclosed herein. Methods may comprise delivering to a subject a dose of about 15 mg to about 20 mg of a compound disclosed herein.
- Methods may comprise delivering to a subject a dose of about 1 mg to about 10 mg of a compound disclosed herein. Methods may comprise delivering to a subject a dose of about 10 mg to about 20 mg of a compound disclosed herein. Doses of 1 to 5 mg of compound for a child (pediatric patient) may be sufficient per day. The dose may be slowly increased as tolerated up to about 20 mg per day in divided dosage. The dose may be slowly increased over one or more weeks.
- Methods may comprise delivering a dose of a compound disclosed herein once per day. Methods may comprise delivering a dose disclosed herein once per day. Methods may comprise delivering a dose disclosed herein twice per day. Methods may comprise delivering a first dose at a first time point during a day and a second dose at a second time point during the day. The first dose and the second dose may be the same. The first dose and the second dose may be different.
- Methods disclosed herein may comprise increasing a daily dose of a compound disclosed herein over time.
- methods may comprise delivering at least one compound disclosed herein at a first dose for a first week, and delivering the at least one compound at a second dose for a second week, wherein the first dose and the second dose are different.
- the second dose is greater than the first dose.
- the second dose is less than the first dose.
- Methods disclosed herein may comprise orally delivering to a subject at least one compound disclosed herein.
- the compound may be delivered orally via a tablet or capsule.
- the compound may be delivered orally as a liquid solution.
- the liquid solution may be swallowed.
- the liquid solution may be delivered via a dropper or pipet.
- delivering may comprise injecting the compound (parenteral administration), applying the compound topically, inhaling the compound, administering the compound transnasally to the brain, or any combination thereof.
- Methods disclosed herein may comprise delivering a pharmaceutical composition comprising at least one compound disclosed herein.
- the pharmaceutical composition may comprise a pharmaceutically acceptable diluent, excipient, carrier, or a combination thereof.
- pharmaceutically acceptable refers to a material that does not abrogate the biological activity or properties of the compounds described herein, and is relatively nontoxic (i.e., the toxicity of the material significantly outweighs the benefit of the material).
- a pharmaceutically acceptable material may be administered to an individual without causing significant undesirable biological effects or significantly interacting in a deleterious manner with any of the components of the composition in which it is contained.
- compositions herein may be formulated using one or more
- physiologically acceptable carriers including excipients and auxiliaries which facilitate processing of the active agents into preparations which are used pharmaceutically. Proper formulation is dependent upon the route of administration chosen.
- a summary of pharmaceutical compositions is found, for example, in Remington: The Science and Practice of Pharmacy, Nineteenth Ed (Easton, Pa. : Mack Publishing Company, 1995); Hoover, John E., Remington's Pharmaceutical Sciences, Mack Publishing Co., Easton, Pennsylvania 1975; Liberman, H.A. and Lachman, L., Eds., Pharmaceutical Dosage Forms, Marcel Decker, New York, N.Y., 1980; and Pharmaceutical Dosage Forms and Drug Delivery Systems, Seventh Ed. (Lippincott Williams & Wilkins, 1999).
- compositions disclosed herein may comprise a pharmaceutically acceptable diluent(s), excipient(s), or carrier(s).
- the pharmaceutical compositions may include other medicinal or pharmaceutical agents, carriers, adjuvants, such as preserving, stabilizing, wetting or emulsifying agents, solution promoters, salts for regulating the osmotic pressure, and/or buffers.
- the pharmaceutical compositions also contain other therapeutically valuable substances.
- compositions disclosed herein may be administered to a subject by any suitable administration route, including but not limited to, parenteral (intravenous, subcutaneous, intraperitoneal, intramuscular, intravascular, intrathecal, intravitreal, infusion, or local), topical, oral, or nasal administration.
- parenteral intravenous, subcutaneous, intraperitoneal, intramuscular, intravascular, intrathecal, intravitreal, infusion, or local
- topical oral, or nasal administration.
- Formulations suitable for intramuscular, subcutaneous, peritumoral, or intravenous injection may include physiologically acceptable sterile aqueous or non-aqueous solutions, dispersions, suspensions or emulsions, and sterile powders for reconstitution into sterile injectable solutions or dispersions.
- suitable aqueous and non-aqueous carriers, diluents, solvents, or vehicles including water, ethanol, polyols (propyleneglycol, polyethylene- glycol, glycerol, cremophor and the like), suitable mixtures thereof, vegetable oils (such as olive oil) and injectable organic esters such as ethyl oleate.
- Formulations suitable for subcutaneous injection also contain optional additives such as preserving, wetting, emulsifying, and dispensing agents.
- an active agent may be optionally formulated in aqueous solutions, preferably in physiologically compatible buffers such as Hank's solution, Ringer's solution, or physiological saline buffer.
- Parenteral injections optionally involve bolus injection or continuous infusion.
- Formulations for injection are optionally presented in unit dosage form, e.g., in ampoules or in multi dose containers, with an added preservative.
- the pharmaceutical composition described herein may be in a form suitable for parenteral injection as a sterile suspensions, solutions or emulsions in oily or aqueous vehicles, and contain formulatory agents such as suspending, stabilizing and/or dispersing agents.
- Pharmaceutical formulations for parenteral administration include aqueous solutions of an active agent in water soluble form. Additionally, suspensions are optionally prepared as appropriate oily injection suspensions.
- MEF2C protein expression was significantly lower (P ⁇ 0.01) mMe/2c-het mice than in wild-type (WT) littermates FIG. 2), and a significant number of early deaths in the Mef2c- et mice was observed (FIG. 3A).
- the number of viable animals from crosses between WT and Mefic- et parents were counted. While the number of WT and Mef2c- et offspring were approximately equal on embryonic day (E)18 (28 vs. 23, respectively), the ratio of surviving Mefic-het to WT mice was 44% and 40% by postnatal day (P)21 and 90, respectively.
- the difference between survival at El 8 and adult was significant (P ⁇ 0.05 by Chi-square).
- Mef2c-het mice that survived to 3 months of age exhibited a decrease (-14%) in body weight compared to their WT counterparts (31.9 ⁇ 1.0 gm for WT vs. 27.4 ⁇ 0.8 gm for e/2c-het; P ⁇ 0.001 by Student's t-test).
- Mef2c-het mice display MCHS-like phenotypes
- behavioral tests were performed on male Mef2c-het mice and their WT littermates (>3 months of age). Similar to human patients showing cognitive impairment, Mef2c-het mice performed poorly in the Barnes maze, a test that measures spatial learning and memory function. Mef2c-het mice took a significantly longer time to find the escape tunnel during training sessions (FIG. 3B). In subsequent probe tests, WT mice, but not Mef 2 c-het mice, showed a preference for the target quadrant compared to the opposite quadrant (FIG. 3C), suggesting impaired spatial memory in the Mef2c- et mice.
- Mef2c- et mice manifested stereotypies, including abnormal paw-clasping behavior (FIG. 3D) and repetitive head dipping on the hole-board exploration test (FIG. 2E). Taken together, these results suggest that Mef2c- et mice display a wide range of MCHS-like phenotypes modeling MCHS.
- EXAMPLE 2 Genes regulating neurogenesis and synaptic function are downregulated in
- RNAs extracted from 3 -month-old mice (FIG. 4C). Consistent with the NextBio analysis, the mRNA level of vesicular ⁇ -aminobutyric acid (GABA) transporter VGAT (encoded by Slc32al), representing an inhibitory presynaptic marker, was significantly decreased in e 2c-het mice.
- GABA vesicular ⁇ -aminobutyric acid
- Slc32al vesicular glutamate transporters 1/2
- VGLUTl/2 representing excitatory synaptic markers
- EXAMPLE 3 Neuronal reduction and impaired excitatory/inhibitory (E/P) synaptic transmission in Mef2c-htt mice
- Mefic haploinsufficiency results in decreased neuronal number, impaired adult neurogenesis, and decreased dendritic complexity in mice.
- mEPSCs/mlPSCs spontaneous miniature excitatory and inhibitory postsynaptic currents from hippocampal slices ofMefic- et and WT mice were recorded. From the theory of quantal release, a change in miniature frequency reflects a change in presynaptic neurotransmitter release or in the number of synapses, while a change in miniature amplitude is thought to represent a change in postsynaptic function, e.g., the number of postsynaptic receptors.
- Mef2c- et mice displayed decreased mlPSC frequency (manifested as increased inter-event interval in FIG. 7C, FIG. 7G), in line with the overall reduction in presynaptic VGAT, dendrites and synapses. Reduced mlPSC amplitude was also observed (FIG. 7C, FIG. 7E), possibly reflecting the fact that MEF2 levels are known to correlate with the expression of specific GABA receptor subunits. Interestingly, these mice also showed an increase in mEPSC frequency (manifest as decreased inter-event interval, FIG. 7D, FIG. 7F), similar to a previous report of increased mEPSC frequency in brain specific Mef2c- KO mice.
- Mef2c- et mice manifested a 116.2% increase in the E/I frequency ratio and a 25.7% increase in E/I amplitude ratio compared to WT mice, confirming the existence of functional E/I imbalance.
- PPF Paired pulse facilitation
- NitroSynapsin (Het/N) showed improved performance relative to vehicle during these tests. This improvement could not be attributed to an increase in swimming speed per se, neither Mef2c heterozygosity nor NitroSynapsin treatment affected swimming speed (FIG. 11). Twenty-four hours after all groups of mice reached the criteria (20 sec to find the hidden platform), probe tests to examine memory retention were performed. As shown in FIG. 10B, WT/V mice displayed normal memory retention by spending a significantly longer time in the target quadrant, where the hidden platform was previously located. In contrast, Het/V mice displayed impaired memory by not showing a preference to the target quadrant over the opposite quadrant.
- WT/V mice spent significantly more time in a chamber with a stranger mouse 1 (SI) than in a chamber with a similar but empty cage (FIG. 10E).
- SI stranger mouse 1
- FIG. 10G Het/V mice showed no preference for time spent in either chamber
- FIG. 10H Het/V mice paid significantly fewer visits to SI and for shorter times per visit than WT/V mice (FIG. 10H, FIG. 101).
- Treatment with NitroSynapsin improved this abnormal social behavior.
- initial feasibility experiments in which Mej2c het mice were treated with equimolar memantine or NitroSynapsin in a head-to-head comparison, demonstrated the superiority of NitroSynapsin in these behavioral paradigms (FIG. 12A).
- NitroSynapsin treatment did not significantly alter the social behavior of WT mice (FIG. 13).
- Mefic-het mice displayed MCHS-like behavioral deficits and thus represented a model for studying disease pathophysiology. Mefic-het mice showed reduced viability, the cause of which is currently unknown. The Mefic-het mice that survived to adulthood exhibit a reduced number of neurons and synaptic impairment, specifically E/I imbalance caused by reduced inhibitory and enhanced excitatory neurotransmission.
- NitroSynapsin not only corrected E/I imbalance, but also improved autistic/MCHS-like behavioral deficits, thus providing target validation and potential disease treatment.
- VGAT was significantly reduced in Mefic-het mouse hippocampus.
- functional inhibitory synaptic transmission was reduced, as demonstrated in recordings of spontaneous mlPSCs.
- VGLUT2 was aberrantly upregulated, consistent with an increase in excitatory neurotransmission, as documented by increased mEPSC frequency. Consequently, dysfunctional inhibitory and excitatory neurotransmission contribute to E/I imbalance in the hippocampus of Mefic-het mice.
- NitroSynapsin significantly improved all three parameters m Mefic-het mice, with increases in synaptic markers, LTP, and neuronal number. Most importantly, NitroSynapsin significantly improved autistic/MCHS-like behaviors in Mefic-het mice.
- Tuberous sclerosis complex is an autosomal dominant disorder manifested by intellectual disability, epilepsy/electrophysiological deficits, and neurobehavioral abnormalities, often producing features of autism spectrum disorder (ASD).
- the disorder is caused by heterozygous mutations that inactivate one of two genes, Tscl or Tsc2.
- the TSC proteins form the TSC 1/2 complex, which inhibits Rheb, a GTPase which activates mammalian target of rapamycin complex 1 (mTORCl).
- mTORCl stimulates mRNA translation and cell growth;
- TSC pathological features such as abnormal signaling at synapses and aberrant subunit composition of AMPA receptors in a variety of neuronal types.
- TSC pathological features such as abnormal signaling at synapses and aberrant subunit composition of AMPA receptors in a variety of neuronal types.
- One important etiological pathway involves overstimulation of mTOR. Hyperactivation of mTOR in TSC results in inhibition of
- LTP Long-term potentiation
- fEPSPs field excitatory postsynaptic potentials
- Tsc2 +I ⁇ mice To determine the effects of eNMDAR antagonists on the brain histology of Tsc2 +I ⁇ mice, quantitative confocal immunohistochemistry was used to analyze coronal brain slices from 3-month-old wild-type (WT) and Tsc2 +I ⁇ mice that had been treated for two and a half days with vehicle, memantine or NitroSynapsin. Tsc2+/- mice on the C57B1/6J background received via the intraperitoneal route either vehicle or a loading dose of 92 ⁇ /kg of memantine or
- NitroSynapsin followed by 4.6 ⁇ /kg of drug twice daily for two-and-a-half-days, with the last dose 3 hours prior to the behavioral training session (for a total of five drug injections).
- This dosing regimen yields an effective concentration of drug at NMDARs in the brain of 1-10 ⁇ .
- Tsc2 +I ⁇ mice treated with NitroSynapsin manifested significantly more staining for the presynaptic marker synaptophysin (SY38) in the hippocampus than untreated heterozygous littermates, whereas the effect of memantine was not statistically significant (see FIGS. 21A and 21B)
- GFAP glial fibrillary acidic protein
- NeuN a neuronal nuclei and cell body marker
- microtubule-associated protein 2 (MAP2, labeling neuronal dendritic spines). Confocal immunohistochemical images of the hippocampus revealed no difference in expression between NeuN, MAP2, or GFAP in WT vs. Tsc2 +I ⁇ mice. Collectively, these histological results indicate that there was no significant loss of neurons/neuropil or increase in reactive astrocytosis at this stage of the disease in the hippocampus, in contradistinction to the loss of synapses.
- NitroSynapsin improves neurobehavioral phenotypes in Tsc2 heterozygous mice
- Novel context new flooring and walls in the test chamber.
- Novel context + cue novel context with sound cue.
- Tsc2 +I ⁇ mice were deficient in this form of context discrimination.
- memantine failed to mitigate this deficit
- All four groups of mice tested (WT-vehicle, Het-vehicle, Het-memantine, and Het-NitroSynapsin) displayed freezing to the conditioned cue in the novel context, indicating that hippocampal- independent fear responses were unaffected by genotype or drugs.
- NitroSynapsin should be tested as a potential therapeutic for the neurological aspects of TSC in an effort to improve quality of life.
- Mef2c- et mice are a useful model for human MCHS; E/I imbalance may play a role in the pathogenesis of MCHS. Restoring synaptic plasticity and preventing neuronal loss with an appropriate NMDAR antagonist rescued or ameliorated autistic/MCHS-like phenotypes Me/2c- et mice.
- the results herein describe treatment of human MCHS and other forms of ASD, HDD, and epilepsy (for example, TSC and Rett Syndrome as shown here) by administration of NitroSynapsin (also known as
- Examples 1-7 employed the following methods as described. A person skilled in the art understands that the following descriptions are exemplary and that there are inconsequential variations that could be made while obtaining the same or similar results in Examples 1-7.
- Meflc heterozygous knockout mice were created by crossing mice carrying the conventional exon 2-deleted allele oiMef2c (Mef2c 2 ) with their WT littermates. All procedures for maintaining and using these mice were approved by the Institutional Animal Care and Use Committee (IACUC) at the Sanford Burnham Prebys Medical Discovery Institute. In this study, only male mice were used for the behavioral assays to insure uniformity (either with or without drug treatment). Chronic treatment with memantine, NitroSynapsin (both at 4.6 ⁇ /kg body weight) or vehicle (PBS) was administered via i.p. injection, twice a day for at least 3 months, starting at -2.5 weeks of age. This age was chosen because mice are still juveniles and thus treatment could begin in human at an equivalent stage. This dose and duration of drug treatment was chosen based on previous studies in which NitroSynapsin exhibited significant protective effects on neurons and synapses.
- IACUC Institutional Animal Care and Use Committee
- mice were randomly distributed to memantine, NitroSynapsin, or vehicle groups before being genotyped. Laboratory workers performing the i.p. injections and behavioral tests were blinded to genotypes. After behavioral tests, mice were used for either immunohistochemistry or electrophysiology, as described below, and studied in a blinded fashion.
- Locomotor activity was measured in polycarbonate cages (42 x 22 x 20 cm) placed into frames (25.5 x 47 cm) mounted with two levels of photocell beams at 2 and 7 cm above the bottom of the cage (San Diego Instruments, San Diego, CA). These two sets of beams allowed recording of both horizontal (locomotion) and vertical (rearing) behavior. A thin layer of bedding material was applied to the bottom of the cage. Mice were tested for 30 or 120 min depending on the exact test.
- mice were picked up by the distal third of their tails and observed for 10 sec. They were rated in a blinded fashion with regard to genotype based on clasping of the front and/or back paws: 0 - no paw clasping, 1 - occasional clasping of front paws, and 3 - constant clasping of front paws and occasional clasping of back paws.
- the Barnes maze consisted of an opaque Plexiglas disc 75 cm in diameter, elevated 58 cm above the floor by a tripod. Twenty holes, 5 cm in diameter, were located 5 cm from the perimeter, and a black Plexiglas escape box (19 x 8 x 7 cm) was placed under one of the holes. Distinct spatial cues were located all around the maze and kept constant throughout the study.
- a training session was performed, which consisted of placing the mouse in the escape box and leaving it there for 1 min. One minute later, the first session was started. At the beginning of each session, the mouse was placed in the middle of the maze in a 10-cm high cylindrical black start chamber.
- the start chamber was removed, a buzzer (80 dB) and a light (400 lux) were turned on, and the mouse was set free to explore the maze.
- the session ended when the mouse entered the escape tunnel or after 3 min had elapsed.
- the buzzer was turned off and the mouse allowed to remain in the dark for one minute.
- a mouse did not enter the tunnel by itself, it was gently put into the escape box for 1 min.
- the tunnel was always located underneath the same hole (stable within the spatial environment), which was randomly determined for each mouse. Mice were tested once a day for 12 d for the acquisition portion of the study. Note, in general, the Barnes maze is often preferred in mice over the Morris water maze because it is less stressful. However, since rodents were tested with NitroSynapsin for other indications using the Morris water maze, it was also used here for drug testing to afford comparison.
- mice were returned to the middle chamber, this time with a stranger mouse (C57BL/6J of the same sex tethered to the wire cage). Time spent in the chamber with the stranger mouse and time spent in the empty wire cage-containing chamber were each recorded for 5 min, as was the number of entries into each chamber. Experimental mice were tested once, and the stranger C57BL/6J mice were used for up to 6 tests.
- the apparatus consisted of a Plexiglas cage (32 x 32 x 30 cm) with 16 holes in a format of 4 x 4 (each 3 cm in diameter) equally spaced on an elevated floor.
- the explorative activity including the number of head-dips and the time spent head-dipping were measured for 5 min.
- mice One to six-month-old mice were anesthetized with isoflurane overdose and decapitated. The brain was rapidly dissected, and hippocampal slices (350 ⁇ in thickness) were collected in ice-cold dissection buffer containing the following (in mM): 212 sucrose, 3 KC1, 5 MgCl 2 , 0.5 CaCl 2 , 1 NaH 2 P0 4 , 26 NaHC0 3 , and 10 glucose (pH 7.4). The CA3 region was cut to avoid epileptiform activity.
- Extracellular glass microelectrodes filled with ACSF were placed in the stratum radiatum to measure field excitatory post-synaptic potentials (fEPSPs).
- fEPSPs field excitatory post-synaptic potentials
- LTP Long-term potentiation
- HFS high-frequency stimulation
- PPF Paired-pulse facilitation
- a Multiclamp 700B amplifier (Molecular Devices) was used for experiments. Data were sampled at 5 kHz and analyzed using the Clampfit 10 program (Molecular Devices). [0112] Synaptic activity was recorded from dentate gyrus (DG) granule neurons using the whole-cell voltage-clamp technique. Data were acquired using a Multiclamp 700B amplifier and Clampex 10.2 software (Molecular Devices). Recordings were sampled at 200 and filtered at 2 kHz. ACSF was used as the external bath solution, with 50 ⁇ picrotoxin and 1 ⁇
- TTX tetrodotoxin
- mEPSCs spontaneous miniature excitatory postsynaptic currents
- CNQX 10 ⁇ 6-cyano-7-nitroquinoxaline-2,3-dione
- AP5 2R-amino-5- phosphonopentanoate
- TTX spontaneous miniature inhibitory postsynaptic currents
- the pipette internal solution for the voltage-clamp experiments contained the following (in mM): 120 K-gluconate, 15 KC1, 1 MgCl 2 , 5 HEPES, 5 EGTA, 2 Mg-ATP, pH 7.4 (300 mOsm).
- mEPSCs and mlPSCs were typically recorded for at least 3-5 min and analyzed using the Mini Analysis Program version 6.0.3 (Synaptosoft).
- mice were perfused with PBS buffer and then 2% paraformaldehyde in PBS (PFA). After perfusion, brains were removed and placed into 2% PFA overnight for post-fixation and then sunk in 30% sucrose in PBS prior to freezing. Cryostat sections were cut at a thickness of 15 ⁇ . Sections were soaked in Antigen Unmasking Solution (Vector) and microwaved for 30 s, followed by permeabilization with 0.25% Triton X-100 in PBS for 15 min. Primary antibodies were incubated for 16 h at 4°C and fluorescence-conjugated secondary antibodies for 2 h at 25 °C. Numerous unstained cells in each field served as an internal control for staining specificity.
- PFA paraformaldehyde in PBS
- TUNEL assay was performed to assess apoptosis using the Roche In Situ Cell Death Detection Kit per vender's instruction.
- the number of cells positive or per cent area occupied by NeuN, activated caspase-3, TUNEL, GFAP, PCNA, or DCX was counted in specific brain regions using an optical dissector, or estimated by quantitative confocal immunohistochemistry or optical density, as described previously.
- Brain tissue was homogenized in 10 volumes of cold sucrose buffer (0.32 M sucrose, 25 mM Hepes, pH 7.4). After a brief centrifugation at 3,000g- for 5 min at 4°C, the supernatant was collected and centrifuged at 10,000g- for 12 min at 4 °C. The outer 3 ⁇ 4 of the pellet was collected and re-suspended using the same sucrose buffer by gentle pipetting, while the dark center containing mitochondria was avoided.
- sucrose buffer 0.32 M sucrose, 25 mM Hepes, pH 7.4
- the pellet without a dark center was collected in cold HBS (25 mM Hepes, pH 7.4, 150 mM NaCl) as the synaptosome-enriched brain lysate and used for western blot experiments.
- Primary antibodies for immunoblotting included: VGLUT1 (guinea pig, SYSY), VGLUT2 (Rabbit, SYSY), GAD65 (rabbit, Millipore), synaptophysin (mouse, Millipore), MEF2C (rabbit,
- Standard Golgi-Cox impregnation was performed with WT and Mef2c- et brains using the FD Rapid GolgiStain kit (FD NeuroTechnologies, Inc.) according to the manufacturer's instructions. After a 3D montage of an entire cell was taken at 40x by deconvolution microscopy and reconstructed with SlideBook 5.0 software (Intelligent Imaging Innovations), Neurolucida neuron tracing software (MBF Bioscience) was used to delineate the whole cell profile and Sholl analysis was performed, as described in detail elsewhere. Cumulative dendritic intersections and dendritic lengths were analyzed.
- mice 8-week-old mice were injected i.p. twice daily for 5 consecutive days with BrdU (50 mg/kg body weight) and perfused with 4% PFA 4 weeks after the last injection. Brains were then dissected and fixed overnight in 4% PFA, rinsed,
- cryoprotected and frozen in liquid N 2 .
- Cryosections (30 or 40 ⁇ in thickness) were sliced on a cryostat. Standard immunostaining procedures were used for primary antibodies with
- Positive cells were counted under a 63x objective using SlideBook software. The total number of cells was counted using an optical dissector technique. Pictures were taken with the same exposure time and contrast/brightness parameters. The mean intensity for a particular marker was determined using ImageJ software and normalized to the average intensity of DG granule neurons. A minimum of 6 pictures containing at least 40 cells was analyzed for each marker.
- Muscle Strength was determined by one trial of 60s in which the mice were placed in the middle of the horizontal bar in an upside-down position and the latency until falling down was measured.
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